Luminosity Outbursts in Interacting Protoplanetary Systems

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
A. M. Skliarevskii, E. I. Vorobyov
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引用次数: 0

Abstract

FU Orionis type objects (fuors) are characterized by rapid (tens to hundreds years) episodic outbursts, during which the luminosity increases by orders of magnitude. One of the possible causes of such events is a close encounter between stars and protoplanetary disks. Numerical simulations show that the fuor-like outburst ignition requires a very close encounter ranging from a few to a few tens of astronomical units. In contrast, the observed stellar objects in fuor binaries are usually hundreds of astronomical units apart. Simple mathematical estimates show that if such a close approach took place, the binary stellar components would have an unrealistic relative velocity, at least an order of magnitude greater than the observed velocity dispersion in young stellar clusters. Thus, the bursts are either triggered with a certain delay after passage of the periastron or their ignition does not necessary require a close encounter and hence the outburst is not caused by the primordial gravitational perturbation of the protoplanetary disk. In this work, an encounter of a star surrounded by a protoplanetary disk with a diskless external stellar object was modeled using numerical hydrodynamics simulations. We showed that even fly-bys with a relatively large periastron (at least 500 AU) can result in fuor-like outbursts. Moreover, the delay between the periastron passage and the burst ignition can reach several kyr. It was shown for the first time by means of numerical modeling that the perturbation of the disk caused by the external object can trigger a cascade process, which includes the development of the thermal instability in the innermost disk followed by the magneto-rotational instability ignition. Because of the sequential development of these instabilities, the rapid increase in the accretion rate occurs, resulting in the luminosity increase by more than two orders of magnitude.

Abstract Image

相互作用原行星系统中的光度爆发
摘要猎户座型天体(fuors)的特点是快速(数十到数百年)的偶发性爆发,在此期间光度会以数量级的速度增加。造成这种现象的可能原因之一是恒星与原行星盘的近距离相遇。数值模拟结果表明,类似燃料爆发的点火需要几到几十个天文单位的近距离相遇。相比之下,观测到的福尔双星中的恒星天体通常相距数百个天文单位。简单的数学估算表明,如果发生如此近距离的相遇,双星的恒星成分将具有不切实际的相对速度,比观测到的年轻恒星簇的速度离散至少大一个数量级。因此,爆发要么是在通过近地天体后有一定延迟才触发的,要么其点燃并不需要近距离相遇,因此爆发不是由原行星盘的原始引力扰动引起的。在这项工作中,我们利用流体力学数值模拟模拟了被原行星盘包围的恒星与无盘外部恒星天体的相遇。我们的研究表明,即使是周距相对较大(至少 500 AU)的飞越也会导致类似燃料爆发的现象。此外,从通过近地天体到爆发点燃之间的延迟可以达到几千亿年。数值建模首次表明,外部天体对圆盘的扰动会引发一个级联过程,其中包括最内层圆盘热不稳定性的发展,然后是磁旋转不稳定性的点燃。由于这些不稳定性的顺序发展,增殖率迅速增加,导致光度增加两个数量级以上。
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来源期刊
Astronomy Reports
Astronomy Reports 地学天文-天文与天体物理
CiteScore
1.40
自引率
20.00%
发文量
57
审稿时长
6-12 weeks
期刊介绍: Astronomy Reports is an international peer reviewed journal that publishes original papers on astronomical topics, including theoretical and observational astrophysics, physics of the Sun, planetary astrophysics, radio astronomy, stellar astronomy, celestial mechanics, and astronomy methods and instrumentation.
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